Calculators Created by Ayush gupta

Created Change in Number of Moles due to Reaction

Go

Created Extent of Reaction given Change in Number of Moles

Go

Created Extent of Reaction given Number of Moles Initially and at Equilibrium

Go

Created Gauge Pressure

Go

Created Mass Fraction of Species A

Go

Created Number of Gram-Atoms of Element

Go

Created Number of Moles at Equilibrium given Extent of Reaction

Go

Created Number of Moles Initially given Extent of Reaction

Go

Created Overall Conversion in Recycle Process

Go

Created Overall Material Balance for Crystallizer

Go

Created Pressure using Virial Equation of State

Go

Created Selectivity

Go

Created Vacuum Pressure

Go

1 More Basic Formulas Calculators

Go

Verified Sauter Mean Diameter

Go

8 More Basic Formulas Calculators

Go

Created Shear Force acting on Newtonian Fluid Layer

Go

Created Viscosity using Viscometer

Go

7 More Basic Formulas Calculators

Go

Created Colburn Factor using Chilton Colburn Analogy

Go

Created Colburn J-Factor given Fanning Friction Factor

Go

Created Equivalent Diameter of Non-Circular Duct

Go

Created Equivalent Diameter when Flow in Rectangular Duct

Go

Created Fanning Friction Factor given Colburn J-Factor

Go

Created Heat Transfer Coefficient based on Temperature Difference

Go

Created Heat Transfer Coefficient given Local Heat Transfer Resistance of Air Film

Go

Created Heat Transfer from Stream of Gas flowing in Turbulent Motion

Go

Created Hydraulic Radius

Go

Created Internal Diameter of Pipe given Heat Transfer Coefficient for Gas in Turbulent Motion

Go

Created J-Factor for Pipe Flow

Go

Created Local Heat Transfer Resistance of Air-Film

Go

Created Reynolds Number given Colburn Factor

Go

Created Wetted Perimeter given Hydraulic Radius

Go

3 More Basics of Heat Transfer Calculators

Go

Created Absolute Humidity based on Weight of Air

Go

Created Absolute Humidity on Basis of Molal Humidity

Go

Created Humid Heat based on Absolute Humidity

Go

Created Mixing Ratio on Basis of Specific Humidity

Go

Created Molal Humidity based on Moles of Air and Water

Go

Created Percentage Humidity

Go

Created Saturation Humidity based on Vapor Pressure

Go

Created Specific Humidity on Basis of Mixing Ratio

Go

11 More Basics of Humidification Process Calculators

Go

Created Overall Heat Transfer based on Thermal Resistance

Go

Created Radiosity

Go

Created Rate of Convective Heat Transfer

Go

10 More Basics of Modes of Heat Transfer Calculators

Go

Created Excess Temperature in Boiling

Go

Created Heat Transfer Coefficient for Forced Convection Local Boiling Inside Vertical Tubes

Go

Created Heat Transfer Coefficient given Biot Number

Go

Created Modified Heat of Vaporization

Go

Created Modified Heat Transfer Coefficient under Influence of Pressure

Go

Created Radiation Heat Transfer Coefficient

Go

Created Radius of Vapour Bubble in Mechanical Equilibrium in Superheated Liquid

Go

Created Saturated Temperature given Excess Temperature

Go

Created Surface Temperature given Excess Temperature

Go

Created Total Heat Transfer Coefficient

Go

4 More Boiling Calculators

Go

Created Bottom Force given Buoyant Force and Top Force

Go

Created Bottom Force on Plate

Go

Created Buoyant Force given Bottom and Top Force

Go

Created Buoyant Force given Volume of Body

Go

Created Buoyant Force on Flat Plate of Uniform Thickness

Go

Created Submerged Volume given Weight of Fluid Body

Go

Created Top Force given Buoyant Force and Bottom Force

Go

Created Top Force on Plate

Go

Created Volume of Body given Buoyant Force

Go

Created Volume of Plate

Go

Created Weight of Submerged Portion of Floating Body

Go

Created Nusselt Number using Dittus Boelter Equation for Cooling

Go

Created Nusselt Number using Dittus Boelter Equation for Heating

Go

Created Stanton Number given Fanning Friction Factor

Go

8 More Co Relation of Dimensionless Numbers Calculators

Go

Created Film Thickness given Mass Flow of Condensate

Go

Created Film Thickness in Film Condensation

Go

Created Heat Transfer Coefficient for Condensation on Flat Plate for Nonlinear Temperature Profile in Film

Go

Created Mass Flow of Condensate through any X Position of Film

Go

Created Mass Flow Rate through Particular Section of Condensate Film given Reynolds Number of Film

Go

Created Reynolds Number for Condensate Film

Go

Created Reynolds Number using Average Heat Transfer Coefficient for Condensate Film

Go

Created Viscosity of Film given Mass Flow of Condensate

Go

Created Viscosity of Film given Reynolds Number of Film

Go

Created Wetted Perimeter given Reynolds Number of Film

Go

12 More Condensation Calculators

Go

Created Conduction Shape Factor of Corner

Go

Created Conduction Shape Factor of Edge

Go

Created Conduction Shape Factor of Wall

Go

3 More Conduction Calculators

Go

Created Murphree Efficiency of Distillation Column Based on Vapour Phase

Go

Created Overall Efficiency of Distillation Column

Go

11 More Continuous Distillation Calculators

Go

Created Correlation for Local Nusselt Number for Laminar Flow on Isothermal Flat Plate

Go

Created Correlation for Nusselt Number for Constant Heat Flux

Go

Created Drag Coefficient for Bluff Bodies

Go

Created Drag Force for Bluff Bodies

Go

Created Friction Coefficient given Shear Stress at Wall

Go

Created Friction Factor given Reynolds Number for Flow in Smooth Tubes

Go

Created Friction Factor given Stanton Number for Turbulent Flow in Tube

Go

Created Local Friction Coefficient given Local Reynolds Number

Go

Created Local Nusselt Number for Constant Heat Flux given Prandtl Number

Go

Created Local Nusselt Number for Plate Heated over its Entire Length

Go

Created Local Skin Friction Coefficient for Turbulent Flow on Flat Plates

Go

Created Local Stanton Number

Go

Created Local Stanton Number given Local Friction Coefficient

Go

Created Local Stanton Number given Prandtl Number

Go

Created Local Velocity of Sound

Go

Created Local Velocity of Sound when Air Behaves as Ideal Gas

Go

Created Mass Flow Rate from Continuity Relation for One Dimensional Flow in Tube

Go

Created Mass Flow Rate given Mass Velocity

Go

Created Mass Velocity

Go

Created Mass Velocity given Mean Velocity

Go

Created Mass Velocity given Reynolds Number

Go

Created Nusselt Number for Plate heated over its Entire Length

Go

Created Nusselt Number for Turbulent Flow in Smooth Tube

Go

Created Prandtl Number given Recovery Factor for Gases for Laminar Flow

Go

Created Recovery Factor

Go

Created Recovery Factor for Gases with Prandtl Number near Unity under Laminar Flow

Go

Created Recovery Factor for Gases with Prandtl Number near Unity under Turbulent Flow

Go

Created Reynolds Number given Friction Factor for Flow in Smooth Tubes

Go

Created Reynolds Number given Mass Velocity

Go

Created Shear Stress at Wall given Friction Coefficient

Go

Created Stanton Number given Friction Factor for Turbulent Flow in Tube

Go

Created Effectiveness of Counter-Current Heat Exchanger if Cold Fluid is Minimum Fluid

Go

Created Effectiveness of Counter-Current Heat Exchanger if Hot Fluid is Minimum Fluid

Go

Created Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid

Go

Created Effectiveness of Parallel-Flow Heat Exchanger if Hot Fluid is Minimum Fluid

Go

Created Heat Exchanger Effectiveness

Go

Created Heat Exchanger Effectiveness for Minimum Fluid

Go

Verified Equivalent Diameter using Reynolds Number

Go

3 More Filtration Calculators

Go

Created Acceleration in X Direction given Average Velocity in Nozzle

Go

Created Acceleration in X Direction in Nozzle given Inlet and Outlet Velocity

Go

Created Average Velocity given Inlet and Outlet Velocity

Go

Created Inlet Area given Inlet Velocity of Fluid in Nozzle

Go

Created Inlet Area of Nozzle given Diameter of Nozzle

Go

Created Inlet Diameter given Inlet Velocity of Fluid in Nozzle

Go

Created Inlet Velocity given Average Velocity

Go

Created Inlet Velocity in Nozzle given Inlet Area of Nozzle

Go

Created Inlet Velocity in Nozzle given Inlet Diameter of Nozzle

Go

Created Outlet Velocity given Average Velocity

Go

Verified Porosity or Void Fraction

Go

Verified Pressure Gradient using Kozeny Carman Equation

Go

3 More Fluidisation Calculators

Go

Created Angular Velocity of Liquid in Rotating Cylinder at Constant Pressure when r is Equal to R

Go

Created Angular Velocity of Liquid in Rotating Cylinder just before Liquid Starts Spilling

Go

Created Centripetal Acceleration of Fluid Particle Rotating with Constant Angular Velocity

Go

Created Equation for Free Surface of Liquid in Rotating Cylinder at Constant Pressure

Go

Created Equation for Free Surface of Liquid in Rotating Cylinder at Constant Pressure when r is Equal to R

Go

Created Free Surface Isobars in Incompressible Fluid with Constant Acceleration

Go

Created Height of Container given Radius and Angular Velocity of Container

Go

Created Pressure at Point in Rigid Body Motion of Liquid in Linearly Accelerating Tank

Go

Created Slope of Isobar

Go

Created Slope of Isobar given Inclination Angle of Free Surface

Go

Created Vertical Rise of Free Surface

Go

Created Vertical Rise or Drop of Free Surface given Acceleration in X and Z Direction

Go

Verified Area of Feed given Crushing Efficiency

Go

Verified Energy Absorbed by Material while Crushing

Go

Verified Maximum Diameter of Particle Nipped by Rolls

Go

Verified Mechanical Efficiency given Energy fed to System

Go

Verified Power Consumption for Crushing only

Go

Verified Radius of Crushing Rolls

Go

Verified Work required for Reduction of Particles

Go

6 More Formulas on Size Reduction Laws Calculators

Go

Created Net Calorific Value

Go

Created Net Calorific Value Based on Weight Percent of Hydrogen

Go

Created Net Calorific Value given Weight Fraction

Go

Created Percent Excess Air

Go

Created Percent Excess Oxygen

Go

Created Theoretical Air Requirement

Go

Created Initial Radiation Intensity

Go

Created Monochromatic Absorption Coefficient if Gas is Non-Reflecting

Go

Created Monochromatic Transmissivity

Go

Created Monochromatic Transmissivity if Gas is Non Reflecting

Go

Created Radiation Intensity at given Distance using Beer's Law

Go

Created Capacity Rate

Go

Created Fouling Factor

Go

Created Maximum Possible Rate of Heat Transfer

Go

Created Number of Heat Transfer Units

Go

Created Overall Heat Transfer Coefficient for Unfinned Tube

Go

Created Rate of Heat Transfer using Correction Factor and LMTD

Go

Created Total Heat Transfer Coefficient for Long Cylinder

Go

3 More Heat Exchanger Calculators

Go

Created Heat Transfer in Fins given Fin Efficiency

Go

8 More Heat Transfer from Extended Surfaces (Fins) Calculators

Go

Created Absolute Pressure at any Point on Submerged Plate

Go

Created Absolute Pressure at any Point on Submerged Plate given Intersecting Angle

Go

Created Average Pressure given Resultant Force

Go

Created Magnitude of Resultant Hydrostatic Force Acting on Curved Surface

Go

Created Resultant Force Acting on Completely Submerged Plate given Intersecting Angle

Go

Created Resultant Force Acting on Completely Submerged Plate given Vertical Distance of Centroid

Go

Created Resultant Force Acting on Completely Submerged Rectangular Flat Plate

Go

Created Resultant Force Acting on Horizontal Rectangular Surface

Go

Created Resultant Force Acting on Plane Surface of Completely Submerged Plate

Go

Created Resultant Force Acting on Plane Surface of Completely Submerged Plate given Average Pressure

Go

Created Average Heat Transfer Coefficient for Condensation Inside Horizontal Tubes for Low Vapor Velocity

Go

Created Average Heat Transfer Coefficient for Film Condensation on Plate for Wavy Laminar Flow

Go

Created Average Heat Transfer Coefficient for Laminar Film Condensation of Tube

Go

Created Average Heat Transfer Coefficient for Laminar Film Condensation on Outside of Sphere

Go

Created Average Heat Transfer Coefficient for Vapor Condensing on Plate

Go

Created Average Heat Transfer Coefficient given Reynolds Number and Properties at Film Temperature

Go

Created Condensation Number

Go

Created Condensation Number for Horizontal Cylinder

Go

Created Condensation Number for Vertical Plate

Go

Created Condensation Number given Reynolds Number

Go

Created Condensation Number when Turbulence is Encountered in Film

Go

Created Correlation for Heat Flux proposed by Mostinski

Go

Created Critical Heat Flux by Zuber

Go

Created Heat Flux in Fully Developed Boiling State for Higher Pressures

Go

Created Heat Flux in Fully Developed Boiling State for Pressure upto 0.7 Megapascal

Go

Created Heat Transfer Rate for Condensation of Superheated Vapors

Go

Verified Combined Overall Efficiency of Screen

Go

Verified Diameter of Wire in Terms of Mesh Number

Go

Verified Mass Fraction of Material in Feed

Go

Verified Mass Fraction of Material in Underflow

Go

Verified Screen Effectiveness based on Oversize Material from Overall Efficiency

Go

7 More Mechanical Separation Calculators

Go

Created Area at Point 1 using Pascal's Law

Go

Created Area at Point 2 using Pascal's Law

Go

Created Barometric Pressure or Atmospheric Pressure

Go

Created Force at Point 1 using Pascal's Law

Go

Created Force at Point 2 using Pascal's Law

Go

Created Gauge Pressure given Absolute Pressure

Go

Created Vacuum Pressure given Atmospheric Pressure

Go

1 More Pressure and its Measurement Calculators

Go

Created Time Constant for Heating Process

Go

Created Time Constant for Mercury in Glass Thermometer

Go

Created Time Constant for Mixing Process

Go

Created Time Period of Oscillations using Time Constant and Damping Factor

Go

Created Transportation Lag

Go

Created Angular Velocity given Revolution Per Unit Time

Go

Created Coefficient of Volume Expansion for Ideal Gas

Go

Created Density of Fluid

Go

Created Enthalpy given Flow Work

Go

Created Enthalpy given Specific Volume

Go

Created Flow Work given Density

Go

Created Flow Work given Specific Volume

Go

Created Height of Capillary Rise in Capillary Tube

Go

Created Mach Number of Compressible Fluid Flow

Go

Created Relative Density of Fluid

Go

Created Shear Force given Shear Stress

Go

Created Shear Stress Acting on Fluid Layer

Go

Created Specific Gravity of Fluid given Density of Water

Go

Created Specific Total Energy

Go

Created Specific Volume given Density

Go

Created Specific Volume of Fluid given Mass

Go

Created Specific Weight of Substance

Go

Created Tangential Velocity given Angular Velocity

Go

Created Torque on Cylinder given Angular Velocity and Radius of Inner Cylinder

Go

Created Torque on Cylinder given Radius, Length and Viscosity

Go

Created Volume Expansivity for Ideal Gas

Go

Created Weight Density given Density

Go

Created Weight of Liquid Column in Capillary Tube

Go

Created Wetted Surface Area

Go

2 More Properties of Fluids Calculators

Go

Created Diffuse Radiation Exchange from Surface 1 to Surface 2

Go

Created Diffuse Radiation Exchange from Surface 2 to Surface 1

Go

Created Diffuse Radiosity

Go

Created Direct Diffuse Radiation from Surface 2 to Surface 1

Go

Created Net Heat Lost by Surface

Go

Created Net Heat Lost by Surface given Diffuse Radiosity

Go

Created Reflectivity given Specular and Diffuse Component

Go

Created Transmissivity given Specular and Diffuse Component

Go

Created Absorptivity given Reflectivity and Transmissivity

Go

Created Area of Surface 1 given Area 2 and Radiation Shape Factor for Both Surfaces

Go

Created Area of Surface 2 given Area 1 and Radiation Shape Factor for Both Surfaces

Go

Created Emissive Power of Blackbody

Go

Created Emissive Power of Non Blackbody given Emissivity

Go

Created Emissivity of Body

Go

Created Energy of each Quanta

Go

Created Frequency given Speed of Light and Wavelength

Go

Created Mass of Particle Given Frequency and Speed of Light

Go

Created Maximum Wavelength at given Temperature

Go

Created Net Energy Leaving given Radiosity and Irradiation

Go

Created Radiation Temperature given Maximum Wavelength

Go

Created Radiosity given Emissive Power and Irradiation

Go

Created Reflected Radiation given Absorptivity and Transmissivity

Go

Created Reflectivity given Absorptivity for Blackbody

Go

Created Reflectivity given Emissivity for Blackbody

Go

Created Resistance in Radiation Heat Transfer when No Shield is Present and Equal Emissivities

Go

Created Shape Factor 12 given Area of Both Surface and Shape Factor 21

Go

Created Shape Factor 21 given Area of Both Surface and Shape Factor 12

Go

Created Temperature of Radiation Shield Placed between Two Parallel Infinite Planes with Equal Emissivities

Go

Created Total Resistance in Radiation Heat Transfer given Emissivity and Number of Shields

Go

Created Transmissivity Given Reflectivity and Absorptivity

Go

Created Wavelength Given Speed of Light and Frequency

Go

Created Heat Transfer between Concentric Spheres

Go

Created Heat Transfer between Small Convex Object in Large Enclosure

Go

Created Heat Transfer between Two Infinite Parallel Planes given Temp and Emissivity of Both Surfaces

Go

Created Heat Transfer between Two Long Concentric Cylinder given Temp, Emissivity and Area of Both Surfaces

Go

Created Net Heat Exchange between Two Surfaces given Radiosity for Both Surface

Go

Created Net Heat Exchange given Area 1 and Shape Factor 12

Go

Created Net Heat Exchange given Area 2 and Shape Factor 21

Go

Created Net Heat Transfer from Surface given Emissivity, Radiosity and Emissive Power

Go

Created Radiation Heat Transfer between Plane 1 and Shield given Temperature and Emissivity of Both Surfaces

Go

Created Radiation Heat Transfer between Plane 2 and Radiation Shield given Temperature and Emissivity

Go

Created Emissive Power of Blackbody through Medium

Go

Created Emissive Power of Blackbody through Medium given Emissivity of Medium

Go

Created Emissivity of Medium given Emissive Power of Blackbody through Medium

Go

Created Energy Emitted by Medium

Go

Created Energy Leaving Surface 1 that is Transmitted through Medium

Go

Created Net Heat Exchange in Transmission Process

Go

Created Temperature of Medium given Emissive Power of Blackbody

Go

Created Transmissivity of Transparent Medium given Radiosity and Shape Factor

Go

Created Relative Volatility using Mole Fraction

Go

Created Relative Volatility using Vapour Pressure

Go

Created Total Pressure using Mole Fraction and Saturated Pressure

Go

7 More Relative Volatility and Vaporization Ratio Calculators

Go

Verified Radius of Ball Mill

Go

3 More Size Reduction Equipment Calculators

Go

Verified Surface Shape Factor

Go

4 More Sphericity of Particles Calculators

Go

Created Average Molecular Weight

Go

Created Chemical Plant Yield

Go

Created Percent Yield of Chemical Reaction

Go

Created Stoichiometric Number given Change in Number of Moles and Extent of Reaction

Go

Created Stoichiometric Number given Number of Moles Initially and at Equilibrium

Go

Verified Applied Pressure in Terms of Coefficient of Flowability for Solids

Go

2 More Storage and Transportation Of Solids Calculators

Go

Verified Activation Energy using Rate Constant at Two Different Temperatures

Go

Verified Activation Energy using Reaction Rate at Two Different Temperatures

Go

9 More Temperature Dependency from Arrhenius' Law Calculators

Go

Created Inner Heat Transfer Coefficient given Inner Thermal Resistance

Go

Created Inside Area given Thermal Resistance for Inner Surface

Go

Created Outside Area given Outer Thermal Resistance

Go

Created Outside Heat Transfer Coefficient given Thermal Resistance

Go

Created Thermal Resistance for Conduction at Tube Wall

Go

Created Thermal Resistance for Convection at Inner Surface

Go

Created Thermal Resistance for Convection at Outer Surface

Go

Created Total Thermal Resistance

Go

Verified Percentage Regulation of Transformer

Go

18 More Transformer Design Calculators

Go

Created Biot Number given Characteristic Dimension and Fourier Number

Go

Created Biot Number given Heat Transfer Coefficient and Time Constant

Go

Created Biot Number using Fourier Number

Go

Created Biot Number using Heat Transfer Coefficient

Go

Created Capacitance of Thermal System by Lumped Heat Capacity Method

Go

Created Fourier Number

Go

Created Fourier Number given Characteristic Dimension and Biot Number

Go

Created Fourier Number given Heat Transfer Coefficient and Time Constant

Go

Created Fourier Number using Biot Number

Go

Created Fourier Number using Thermal Conductivity

Go

Created Initial Internal Energy Content of Body in Reference to Environment Temperature

Go

Created Initial Temperature of Body by Lumped Heat Capacity Method

Go

Created Temperature of Body by Lumped Heat Capacity Method

Go

Created Temperature Response of Instantaneous Energy Pulse in Semi Infinite Solid

Go

Created Temperature Response of Instantaneous Energy Pulse in Semi Infinite Solid at Surface

Go

Created Thermal Conductivity given Biot Number

Go

Created Time Constant of Thermal System

Go

Created Time Taken by Object for Heating or Cooling by Lumped Heat Capacity Method

Go

List of Calculators by Ayush gupta